赵婷婷,博士,副教授,泰山学者青年专家。本科和硕士毕业于山东农业大学生命科学学院,2021年博士毕业于中科院遗传与发育生物学研究所,2021-2023年在湖北中医药大学从事博士后研究工作,2023年入职山东农业大学果树系从事教学与科研工作。研究方向为苹果等大宗水果果实采后品质劣变的机制与防止水果品质劣变调控技术的开发。主持博士后面上基金、湖北省自然科学基金等项目,以第一作者或通讯作者在Plant Cell、Cell Reports、Plant Biotechnology Journal等期刊发表论文12篇。
代表性研究论文:
1. Zhao T.T.*, Ren L.J.*, Chen X.J.*, Yu H.X., Liu C.J., Shen Y. Shi W.Q., Tang D., Du G.J., Li Y.F., and Cheng Z.K. (2018). The OsRR24/LEPTO1 type-B response regulator is essential for the organization of leptotene chromosomes in rice meiosis. Plant Cell. 30(12): 3024-3037.
2. Zhao T.T.*, Ren L.J.*, Zhao Y.Z.*, You H.L., Zhou Y., Tang D., Du G.J., Shen Y., Li Y.F., Cheng Z.K. (2021). Reproductive cells and peripheral parietal cells collaboratively participate in meiotic fate acquisition in rice anthers. Plant Journal. 108(3): 661-671.
3. Ren L.J.*, Zhao T.T.*, Zhao Y.Z.*, Du G.J., Yang S.Y., Mu N., Tang D., Shen Y., Li Y.F., Cheng Z.K. (2021). The E3 ubiquitin ligase DESYNAPSIS1 regulates synapsis and recombination in rice meiosis. Cell Reports. 37(5): 109941. (共同第一作者).
4. Ren L.J. *, Zhao T.T. *, Zhang L. *, Du G.J., Shen Y., Tang D., Li Y.F., Luo Q., Cheng Z.K. (2020). Defective Microspore Development 1 is required for microspore cell integrity and pollen wall formation in rice. Plant Journal. 103(4): 1446-1459. (共同第一作者).
5. Miao Y.H.*, Luo D.D.*, Zhao T.T.*, Du H.Z*, Liu Z.H, Xu Z.P., Guo L.P., Chen C.J., Peng S.N., Li J.X., Ma L., Ning G.G., Liu D.H., Huang L.Q. (2022). Genome sequencing reveals chromosome fusion and extensive expansion of genes related to secondary metabolism in Artemisia argy. Plant Biotechnology Journal. 20(10): 1902-1915. (共同第一作者).
6. Li J.X.*, Zhao T.T.*, Chen L., Chen H., Luo D.D., Chen C.J., Miao Y.H., Liu D.H. (2022). Artemisia argyi allelopathy: a generalist compromises hormone balance, element absorption, and photosynthesis of receptor plants. BMC Plant Biology. 22: 368. (共同第一作者).
7. Zhao T.T. *, Chen C.J.*, Li J.X., Luo D.D., Miao Y.H., Gui C., Liu Q., Liu D.H. (2023). Comparative Transcriptome Analysis of high and low thujone-producing Artemisia argyi reveals Candidate Genes for Thujone Synthetic and Regulatory Pathway. Horticulturae. 9:232.
8. Chen C.J., Miao Y.H., Luo D.D., Li J.X., Wang Z.X., Luo M., Zhao T.T.*, Liu D.H*. (2022). Sequence characteristics and phylogenetic analysis of the Artemisia argyi chloroplast genome. Frontiers in Plant Science. 20:13:906725. (通讯作者).
9. Chen C.J., Luo D.D., Wang Z.X., Miao Y.H., Liu Q., Zhao T.T.*, Liu D.H*. (2024). Complete chloroplast genomes of eight Artemisia species: Comparative analysis, molecular identification, and phylogenetic analysis. Plant Biology. 26(2):257-269. (通讯作者).
10. Wang Z.X.*, Zhao T.T.*, Ma L., Chen C.J., Miao Y.H., Guo L.P., Liu D.H. (2023). Mechanisms governing the impact of nitrogen stress on the formation of secondary metabolites in Artemisia argyi leaves. Scientific Reports. 13:12866. (共同第一作者).
11. Wang Z.X., Ma L., Chen C.J., Guo L.J., Guo L.P., Zhao T.T.*, Liu D.H*. (2023). Effects of phosphorus stress on the growth and secondary metabolism of Artemisia argyi. Journal of Plant Research. 136(6):879-889. (通讯作者).
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